Icard/angular-clarity-master(working)/node_modules/lit-element/lib/updating-element.js

/**
 * @license
 * Copyright (c) 2017 The Polymer Project Authors. All rights reserved.
 * This code may only be used under the BSD style license found at
 * http://polymer.github.io/LICENSE.txt
 * The complete set of authors may be found at
 * http://polymer.github.io/AUTHORS.txt
 * The complete set of contributors may be found at
 * http://polymer.github.io/CONTRIBUTORS.txt
 * Code distributed by Google as part of the polymer project is also
 * subject to an additional IP rights grant found at
 * http://polymer.github.io/PATENTS.txt
 */
var _a;
/**
 * Use this module if you want to create your own base class extending
 * [[UpdatingElement]].
 * @packageDocumentation
 */
/*
 * When using Closure Compiler, JSCompiler_renameProperty(property, object) is
 * replaced at compile time by the munged name for object[property]. We cannot
 * alias this function, so we have to use a small shim that has the same
 * behavior when not compiling.
 */
window.JSCompiler_renameProperty =
    (prop, _obj) => prop;
export const defaultConverter = {
    toAttribute(value, type) {
        switch (type) {
            case Boolean:
                return value ? '' : null;
            case Object:
            case Array:
                // if the value is `null` or `undefined` pass this through
                // to allow removing/no change behavior.
                return value == null ? value : JSON.stringify(value);
        }
        return value;
    },
    fromAttribute(value, type) {
        switch (type) {
            case Boolean:
                return value !== null;
            case Number:
                return value === null ? null : Number(value);
            case Object:
            case Array:
                // Type assert to adhere to Bazel's "must type assert JSON parse" rule.
                return JSON.parse(value);
        }
        return value;
    }
};
/**
 * Change function that returns true if `value` is different from `oldValue`.
 * This method is used as the default for a property's `hasChanged` function.
 */
export const notEqual = (value, old) => {
    // This ensures (old==NaN, value==NaN) always returns false
    return old !== value && (old === old || value === value);
};
const defaultPropertyDeclaration = {
    attribute: true,
    type: String,
    converter: defaultConverter,
    reflect: false,
    hasChanged: notEqual
};
const STATE_HAS_UPDATED = 1;
const STATE_UPDATE_REQUESTED = 1 << 2;
const STATE_IS_REFLECTING_TO_ATTRIBUTE = 1 << 3;
const STATE_IS_REFLECTING_TO_PROPERTY = 1 << 4;
/**
 * The Closure JS Compiler doesn't currently have good support for static
 * property semantics where "this" is dynamic (e.g.
 * https://github.com/google/closure-compiler/issues/3177 and others) so we use
 * this hack to bypass any rewriting by the compiler.
 */
const finalized = 'finalized';
/**
 * Base element class which manages element properties and attributes. When
 * properties change, the `update` method is asynchronously called. This method
 * should be supplied by subclassers to render updates as desired.
 * @noInheritDoc
 */
export class UpdatingElement extends HTMLElement {
    constructor() {
        super();
        this.initialize();
    }
    /**
     * Returns a list of attributes corresponding to the registered properties.
     * @nocollapse
     */
    static get observedAttributes() {
        // note: piggy backing on this to ensure we're finalized.
        this.finalize();
        const attributes = [];
        // Use forEach so this works even if for/of loops are compiled to for loops
        // expecting arrays
        this._classProperties.forEach((v, p) => {
            const attr = this._attributeNameForProperty(p, v);
            if (attr !== undefined) {
                this._attributeToPropertyMap.set(attr, p);
                attributes.push(attr);
            }
        });
        return attributes;
    }
    /**
     * Ensures the private `_classProperties` property metadata is created.
     * In addition to `finalize` this is also called in `createProperty` to
     * ensure the `@property` decorator can add property metadata.
     */
    /** @nocollapse */
    static _ensureClassProperties() {
        // ensure private storage for property declarations.
        if (!this.hasOwnProperty(JSCompiler_renameProperty('_classProperties', this))) {
            this._classProperties = new Map();
            // NOTE: Workaround IE11 not supporting Map constructor argument.
            const superProperties = Object.getPrototypeOf(this)._classProperties;
            if (superProperties !== undefined) {
                superProperties.forEach((v, k) => this._classProperties.set(k, v));
            }
        }
    }
    /**
     * Creates a property accessor on the element prototype if one does not exist
     * and stores a PropertyDeclaration for the property with the given options.
     * The property setter calls the property's `hasChanged` property option
     * or uses a strict identity check to determine whether or not to request
     * an update.
     *
     * This method may be overridden to customize properties; however,
     * when doing so, it's important to call `super.createProperty` to ensure
     * the property is setup correctly. This method calls
     * `getPropertyDescriptor` internally to get a descriptor to install.
     * To customize what properties do when they are get or set, override
     * `getPropertyDescriptor`. To customize the options for a property,
     * implement `createProperty` like this:
     *
     * static createProperty(name, options) {
     *   options = Object.assign(options, {myOption: true});
     *   super.createProperty(name, options);
     * }
     *
     * @nocollapse
     */
    static createProperty(name, options = defaultPropertyDeclaration) {
        // Note, since this can be called by the `@property` decorator which
        // is called before `finalize`, we ensure storage exists for property
        // metadata.
        this._ensureClassProperties();
        this._classProperties.set(name, options);
        // Do not generate an accessor if the prototype already has one, since
        // it would be lost otherwise and that would never be the user's intention;
        // Instead, we expect users to call `requestUpdate` themselves from
        // user-defined accessors. Note that if the super has an accessor we will
        // still overwrite it
        if (options.noAccessor || this.prototype.hasOwnProperty(name)) {
            return;
        }
        const key = typeof name === 'symbol' ? Symbol() : `__${name}`;
        const descriptor = this.getPropertyDescriptor(name, key, options);
        if (descriptor !== undefined) {
            Object.defineProperty(this.prototype, name, descriptor);
        }
    }
    /**
     * Returns a property descriptor to be defined on the given named property.
     * If no descriptor is returned, the property will not become an accessor.
     * For example,
     *
     *   class MyElement extends LitElement {
     *     static getPropertyDescriptor(name, key, options) {
     *       const defaultDescriptor =
     *           super.getPropertyDescriptor(name, key, options);
     *       const setter = defaultDescriptor.set;
     *       return {
     *         get: defaultDescriptor.get,
     *         set(value) {
     *           setter.call(this, value);
     *           // custom action.
     *         },
     *         configurable: true,
     *         enumerable: true
     *       }
     *     }
     *   }
     *
     * @nocollapse
     */
    static getPropertyDescriptor(name, key, options) {
        return {
            // tslint:disable-next-line:no-any no symbol in index
            get() {
                return this[key];
            },
            set(value) {
                const oldValue = this[name];
                this[key] = value;
                this
                    .requestUpdateInternal(name, oldValue, options);
            },
            configurable: true,
            enumerable: true
        };
    }
    /**
     * Returns the property options associated with the given property.
     * These options are defined with a PropertyDeclaration via the `properties`
     * object or the `@property` decorator and are registered in
     * `createProperty(...)`.
     *
     * Note, this method should be considered "final" and not overridden. To
     * customize the options for a given property, override `createProperty`.
     *
     * @nocollapse
     * @final
     */
    static getPropertyOptions(name) {
        return this._classProperties && this._classProperties.get(name) ||
            defaultPropertyDeclaration;
    }
    /**
     * Creates property accessors for registered properties and ensures
     * any superclasses are also finalized.
     * @nocollapse
     */
    static finalize() {
        // finalize any superclasses
        const superCtor = Object.getPrototypeOf(this);
        if (!superCtor.hasOwnProperty(finalized)) {
            superCtor.finalize();
        }
        this[finalized] = true;
        this._ensureClassProperties();
        // initialize Map populated in observedAttributes
        this._attributeToPropertyMap = new Map();
        // make any properties
        // Note, only process "own" properties since this element will inherit
        // any properties defined on the superClass, and finalization ensures
        // the entire prototype chain is finalized.
        if (this.hasOwnProperty(JSCompiler_renameProperty('properties', this))) {
            const props = this.properties;
            // support symbols in properties (IE11 does not support this)
            const propKeys = [
                ...Object.getOwnPropertyNames(props),
                ...(typeof Object.getOwnPropertySymbols === 'function') ?
                    Object.getOwnPropertySymbols(props) :
                    []
            ];
            // This for/of is ok because propKeys is an array
            for (const p of propKeys) {
                // note, use of `any` is due to TypeSript lack of support for symbol in
                // index types
                // tslint:disable-next-line:no-any no symbol in index
                this.createProperty(p, props[p]);
            }
        }
    }
    /**
     * Returns the property name for the given attribute `name`.
     * @nocollapse
     */
    static _attributeNameForProperty(name, options) {
        const attribute = options.attribute;
        return attribute === false ?
            undefined :
            (typeof attribute === 'string' ?
                attribute :
                (typeof name === 'string' ? name.toLowerCase() : undefined));
    }
    /**
     * Returns true if a property should request an update.
     * Called when a property value is set and uses the `hasChanged`
     * option for the property if present or a strict identity check.
     * @nocollapse
     */
    static _valueHasChanged(value, old, hasChanged = notEqual) {
        return hasChanged(value, old);
    }
    /**
     * Returns the property value for the given attribute value.
     * Called via the `attributeChangedCallback` and uses the property's
     * `converter` or `converter.fromAttribute` property option.
     * @nocollapse
     */
    static _propertyValueFromAttribute(value, options) {
        const type = options.type;
        const converter = options.converter || defaultConverter;
        const fromAttribute = (typeof converter === 'function' ? converter : converter.fromAttribute);
        return fromAttribute ? fromAttribute(value, type) : value;
    }
    /**
     * Returns the attribute value for the given property value. If this
     * returns undefined, the property will *not* be reflected to an attribute.
     * If this returns null, the attribute will be removed, otherwise the
     * attribute will be set to the value.
     * This uses the property's `reflect` and `type.toAttribute` property options.
     * @nocollapse
     */
    static _propertyValueToAttribute(value, options) {
        if (options.reflect === undefined) {
            return;
        }
        const type = options.type;
        const converter = options.converter;
        const toAttribute = converter && converter.toAttribute ||
            defaultConverter.toAttribute;
        return toAttribute(value, type);
    }
    /**
     * Performs element initialization. By default captures any pre-set values for
     * registered properties.
     */
    initialize() {
        this._updateState = 0;
        this._updatePromise =
            new Promise((res) => this._enableUpdatingResolver = res);
        this._changedProperties = new Map();
        this._saveInstanceProperties();
        // ensures first update will be caught by an early access of
        // `updateComplete`
        this.requestUpdateInternal();
    }
    /**
     * Fixes any properties set on the instance before upgrade time.
     * Otherwise these would shadow the accessor and break these properties.
     * The properties are stored in a Map which is played back after the
     * constructor runs. Note, on very old versions of Safari (<=9) or Chrome
     * (<=41), properties created for native platform properties like (`id` or
     * `name`) may not have default values set in the element constructor. On
     * these browsers native properties appear on instances and therefore their
     * default value will overwrite any element default (e.g. if the element sets
     * this.id = 'id' in the constructor, the 'id' will become '' since this is
     * the native platform default).
     */
    _saveInstanceProperties() {
        // Use forEach so this works even if for/of loops are compiled to for loops
        // expecting arrays
        this.constructor
            ._classProperties.forEach((_v, p) => {
            if (this.hasOwnProperty(p)) {
                const value = this[p];
                delete this[p];
                if (!this._instanceProperties) {
                    this._instanceProperties = new Map();
                }
                this._instanceProperties.set(p, value);
            }
        });
    }
    /**
     * Applies previously saved instance properties.
     */
    _applyInstanceProperties() {
        // Use forEach so this works even if for/of loops are compiled to for loops
        // expecting arrays
        // tslint:disable-next-line:no-any
        this._instanceProperties.forEach((v, p) => this[p] = v);
        this._instanceProperties = undefined;
    }
    connectedCallback() {
        // Ensure first connection completes an update. Updates cannot complete
        // before connection.
        this.enableUpdating();
    }
    enableUpdating() {
        if (this._enableUpdatingResolver !== undefined) {
            this._enableUpdatingResolver();
            this._enableUpdatingResolver = undefined;
        }
    }
    /**
     * Allows for `super.disconnectedCallback()` in extensions while
     * reserving the possibility of making non-breaking feature additions
     * when disconnecting at some point in the future.
     */
    disconnectedCallback() {
    }
    /**
     * Synchronizes property values when attributes change.
     */
    attributeChangedCallback(name, old, value) {
        if (old !== value) {
            this._attributeToProperty(name, value);
        }
    }
    _propertyToAttribute(name, value, options = defaultPropertyDeclaration) {
        const ctor = this.constructor;
        const attr = ctor._attributeNameForProperty(name, options);
        if (attr !== undefined) {
            const attrValue = ctor._propertyValueToAttribute(value, options);
            // an undefined value does not change the attribute.
            if (attrValue === undefined) {
                return;
            }
            // Track if the property is being reflected to avoid
            // setting the property again via `attributeChangedCallback`. Note:
            // 1. this takes advantage of the fact that the callback is synchronous.
            // 2. will behave incorrectly if multiple attributes are in the reaction
            // stack at time of calling. However, since we process attributes
            // in `update` this should not be possible (or an extreme corner case
            // that we'd like to discover).
            // mark state reflecting
            this._updateState = this._updateState | STATE_IS_REFLECTING_TO_ATTRIBUTE;
            if (attrValue == null) {
                this.removeAttribute(attr);
            }
            else {
                this.setAttribute(attr, attrValue);
            }
            // mark state not reflecting
            this._updateState = this._updateState & ~STATE_IS_REFLECTING_TO_ATTRIBUTE;
        }
    }
    _attributeToProperty(name, value) {
        // Use tracking info to avoid deserializing attribute value if it was
        // just set from a property setter.
        if (this._updateState & STATE_IS_REFLECTING_TO_ATTRIBUTE) {
            return;
        }
        const ctor = this.constructor;
        // Note, hint this as an `AttributeMap` so closure clearly understands
        // the type; it has issues with tracking types through statics
        // tslint:disable-next-line:no-unnecessary-type-assertion
        const propName = ctor._attributeToPropertyMap.get(name);
        if (propName !== undefined) {
            const options = ctor.getPropertyOptions(propName);
            // mark state reflecting
            this._updateState = this._updateState | STATE_IS_REFLECTING_TO_PROPERTY;
            this[propName] =
                // tslint:disable-next-line:no-any
                ctor._propertyValueFromAttribute(value, options);
            // mark state not reflecting
            this._updateState = this._updateState & ~STATE_IS_REFLECTING_TO_PROPERTY;
        }
    }
    /**
     * This protected version of `requestUpdate` does not access or return the
     * `updateComplete` promise. This promise can be overridden and is therefore
     * not free to access.
     */
    requestUpdateInternal(name, oldValue, options) {
        let shouldRequestUpdate = true;
        // If we have a property key, perform property update steps.
        if (name !== undefined) {
            const ctor = this.constructor;
            options = options || ctor.getPropertyOptions(name);
            if (ctor._valueHasChanged(this[name], oldValue, options.hasChanged)) {
                if (!this._changedProperties.has(name)) {
                    this._changedProperties.set(name, oldValue);
                }
                // Add to reflecting properties set.
                // Note, it's important that every change has a chance to add the
                // property to `_reflectingProperties`. This ensures setting
                // attribute + property reflects correctly.
                if (options.reflect === true &&
                    !(this._updateState & STATE_IS_REFLECTING_TO_PROPERTY)) {
                    if (this._reflectingProperties === undefined) {
                        this._reflectingProperties = new Map();
                    }
                    this._reflectingProperties.set(name, options);
                }
            }
            else {
                // Abort the request if the property should not be considered changed.
                shouldRequestUpdate = false;
            }
        }
        if (!this._hasRequestedUpdate && shouldRequestUpdate) {
            this._updatePromise = this._enqueueUpdate();
        }
    }
    /**
     * Requests an update which is processed asynchronously. This should
     * be called when an element should update based on some state not triggered
     * by setting a property. In this case, pass no arguments. It should also be
     * called when manually implementing a property setter. In this case, pass the
     * property `name` and `oldValue` to ensure that any configured property
     * options are honored. Returns the `updateComplete` Promise which is resolved
     * when the update completes.
     *
     * @param name {PropertyKey} (optional) name of requesting property
     * @param oldValue {any} (optional) old value of requesting property
     * @returns {Promise} A Promise that is resolved when the update completes.
     */
    requestUpdate(name, oldValue) {
        this.requestUpdateInternal(name, oldValue);
        return this.updateComplete;
    }
    /**
     * Sets up the element to asynchronously update.
     */
    async _enqueueUpdate() {
        this._updateState = this._updateState | STATE_UPDATE_REQUESTED;
        try {
            // Ensure any previous update has resolved before updating.
            // This `await` also ensures that property changes are batched.
            await this._updatePromise;
        }
        catch (e) {
            // Ignore any previous errors. We only care that the previous cycle is
            // done. Any error should have been handled in the previous update.
        }
        const result = this.performUpdate();
        // If `performUpdate` returns a Promise, we await it. This is done to
        // enable coordinating updates with a scheduler. Note, the result is
        // checked to avoid delaying an additional microtask unless we need to.
        if (result != null) {
            await result;
        }
        return !this._hasRequestedUpdate;
    }
    get _hasRequestedUpdate() {
        return (this._updateState & STATE_UPDATE_REQUESTED);
    }
    get hasUpdated() {
        return (this._updateState & STATE_HAS_UPDATED);
    }
    /**
     * Performs an element update. Note, if an exception is thrown during the
     * update, `firstUpdated` and `updated` will not be called.
     *
     * You can override this method to change the timing of updates. If this
     * method is overridden, `super.performUpdate()` must be called.
     *
     * For instance, to schedule updates to occur just before the next frame:
     *
     * ```
     * protected async performUpdate(): Promise<unknown> {
     *   await new Promise((resolve) => requestAnimationFrame(() => resolve()));
     *   super.performUpdate();
     * }
     * ```
     */
    performUpdate() {
        // Abort any update if one is not pending when this is called.
        // This can happen if `performUpdate` is called early to "flush"
        // the update.
        if (!this._hasRequestedUpdate) {
            return;
        }
        // Mixin instance properties once, if they exist.
        if (this._instanceProperties) {
            this._applyInstanceProperties();
        }
        let shouldUpdate = false;
        const changedProperties = this._changedProperties;
        try {
            shouldUpdate = this.shouldUpdate(changedProperties);
            if (shouldUpdate) {
                this.update(changedProperties);
            }
            else {
                this._markUpdated();
            }
        }
        catch (e) {
            // Prevent `firstUpdated` and `updated` from running when there's an
            // update exception.
            shouldUpdate = false;
            // Ensure element can accept additional updates after an exception.
            this._markUpdated();
            throw e;
        }
        if (shouldUpdate) {
            if (!(this._updateState & STATE_HAS_UPDATED)) {
                this._updateState = this._updateState | STATE_HAS_UPDATED;
                this.firstUpdated(changedProperties);
            }
            this.updated(changedProperties);
        }
    }
    _markUpdated() {
        this._changedProperties = new Map();
        this._updateState = this._updateState & ~STATE_UPDATE_REQUESTED;
    }
    /**
     * Returns a Promise that resolves when the element has completed updating.
     * The Promise value is a boolean that is `true` if the element completed the
     * update without triggering another update. The Promise result is `false` if
     * a property was set inside `updated()`. If the Promise is rejected, an
     * exception was thrown during the update.
     *
     * To await additional asynchronous work, override the `_getUpdateComplete`
     * method. For example, it is sometimes useful to await a rendered element
     * before fulfilling this Promise. To do this, first await
     * `super._getUpdateComplete()`, then any subsequent state.
     *
     * @returns {Promise} The Promise returns a boolean that indicates if the
     * update resolved without triggering another update.
     */
    get updateComplete() {
        return this._getUpdateComplete();
    }
    /**
     * Override point for the `updateComplete` promise.
     *
     * It is not safe to override the `updateComplete` getter directly due to a
     * limitation in TypeScript which means it is not possible to call a
     * superclass getter (e.g. `super.updateComplete.then(...)`) when the target
     * language is ES5 (https://github.com/microsoft/TypeScript/issues/338).
     * This method should be overridden instead. For example:
     *
     *   class MyElement extends LitElement {
     *     async _getUpdateComplete() {
     *       await super._getUpdateComplete();
     *       await this._myChild.updateComplete;
     *     }
     *   }
     * @deprecated Override `getUpdateComplete()` instead for forward
     *     compatibility with `lit-element` 3.0 / `@lit/reactive-element`.
     */
    _getUpdateComplete() {
        return this.getUpdateComplete();
    }
    /**
     * Override point for the `updateComplete` promise.
     *
     * It is not safe to override the `updateComplete` getter directly due to a
     * limitation in TypeScript which means it is not possible to call a
     * superclass getter (e.g. `super.updateComplete.then(...)`) when the target
     * language is ES5 (https://github.com/microsoft/TypeScript/issues/338).
     * This method should be overridden instead. For example:
     *
     *   class MyElement extends LitElement {
     *     async getUpdateComplete() {
     *       await super.getUpdateComplete();
     *       await this._myChild.updateComplete;
     *     }
     *   }
     */
    getUpdateComplete() {
        return this._updatePromise;
    }
    /**
     * Controls whether or not `update` should be called when the element requests
     * an update. By default, this method always returns `true`, but this can be
     * customized to control when to update.
     *
     * @param _changedProperties Map of changed properties with old values
     */
    shouldUpdate(_changedProperties) {
        return true;
    }
    /**
     * Updates the element. This method reflects property values to attributes.
     * It can be overridden to render and keep updated element DOM.
     * Setting properties inside this method will *not* trigger
     * another update.
     *
     * @param _changedProperties Map of changed properties with old values
     */
    update(_changedProperties) {
        if (this._reflectingProperties !== undefined &&
            this._reflectingProperties.size > 0) {
            // Use forEach so this works even if for/of loops are compiled to for
            // loops expecting arrays
            this._reflectingProperties.forEach((v, k) => this._propertyToAttribute(k, this[k], v));
            this._reflectingProperties = undefined;
        }
        this._markUpdated();
    }
    /**
     * Invoked whenever the element is updated. Implement to perform
     * post-updating tasks via DOM APIs, for example, focusing an element.
     *
     * Setting properties inside this method will trigger the element to update
     * again after this update cycle completes.
     *
     * @param _changedProperties Map of changed properties with old values
     */
    updated(_changedProperties) {
    }
    /**
     * Invoked when the element is first updated. Implement to perform one time
     * work on the element after update.
     *
     * Setting properties inside this method will trigger the element to update
     * again after this update cycle completes.
     *
     * @param _changedProperties Map of changed properties with old values
     */
    firstUpdated(_changedProperties) {
    }
}
_a = finalized;
/**
 * Marks class as having finished creating properties.
 */
UpdatingElement[_a] = true;
//# sourceMappingURL=updating-element.js.map